Wireless Instrument Area Network Node with Internal Force Sensor

2. The wireless instrument area network node of claim 1, wherein the predefined node operation includes one or more of: waking up the node from a sleep mode, initiating a data transfer to or from the node, allowing other devices to connect to the node, and turning on or flashing an LED in the node.

3. The wireless instrument area network node of claim 1, wherein the node control circuitry is further operable to apply hysteresis to the input received from the deflection detector to minimize inadvertent inputs from the deflection detector.

4. The wireless instrument area network node of claim 1, wherein the user-provided force includes a hand touch.

5. The wireless instrument area network node of claim 1, wherein the base plate is made of a stainless steel material.

6. The wireless instrument area network node of claim 1, wherein the deflection detector is a microswitch detection deflector.

7. The wireless instrument area network node of claim 6, further comprising a mounting platform attached to the base plate, wherein the microswitch detection deflector is secured to the mounting platform.

8. The wireless instrument area network node of claim 7, wherein the mounting platform has a mounting slot formed therein having a size and shape to receive the microswitch detection deflector.

9. The wireless instrument area network node of claim 1, wherein the deflection detector is a piezoelectric detection deflector.

10. The wireless instrument area network node of claim 9, wherein the node control circuitry causes the node to initiate a different predefined node operation according to an amplitude of an input received from the piezoelectric detection deflector.

12. The method of claim 11, wherein initiating a predefined node operation comprises initiating one or more of: waking up the node from a sleep mode, initiating a data transfer to or from the node, allowing other devices to connect to the node, and turning on or flashing an LED in the node.

13. The method of claim 11, further comprising checking whether the input received from the deflection detector is an inadvertent input, the checking being performed by the node control circuitry.

14. The method of claim 11, wherein receiving a user-provided force includes receiving a hand touch to the housing of the node.

15. The method of claim 11, wherein detecting a deflection in the base plate comprises detecting deflection in a stainless steel base plate.

16. The method of claim 11, wherein the deflection in the base plate is detected by a microswitch deflection detector.

17. The method of claim 16, further comprising securing the microswitch deflection detector to a mounting platform attached to the base plate.

18. The method of claim 17, wherein securing the microswitch deflection detector to the mounting platform comprises securing the microswitch deflection detector in a mounting slot formed in the mounting platform, the mounting slot having a size and shape to receive the microswitch deflection detector.

19. The method of claim 11, wherein the deflection in the base plate is detected by a piezoelectric deflection detector.

20. The method of claim 19, further comprising initiating a different predefined node operation in the node according to an amplitude of an input received by the node control circuitry from the piezoelectric deflection detector.